pekko/akka-stream-tests/src/test/scala/akka/stream/scaladsl/GraphMergeSpec.scala

/**
 * Copyright (C) 2009-2014 Typesafe Inc. <http://www.typesafe.com>
 */
package akka.stream.scaladsl

import akka.stream.{ ActorFlowMaterializer, ActorFlowMaterializerSettings, Inlet, Outlet }

import scala.concurrent.duration._

import akka.stream.testkit.{ TwoStreamsSetup, AkkaSpec, StreamTestKit }

class GraphMergeSpec extends TwoStreamsSetup {
  import FlowGraph.Implicits._

  override type Outputs = Int

  override def fixture(b: FlowGraph.Builder[_]): Fixture = new Fixture(b) {
    val merge = b add Merge[Outputs](2)

    override def left: Inlet[Outputs] = merge.in(0)
    override def right: Inlet[Outputs] = merge.in(1)
    override def out: Outlet[Outputs] = merge.out

  }

  "merge" must {

    "work in the happy case" in {
      // Different input sizes (4 and 6)
      val source1 = Source(0 to 3)
      val source2 = Source(4 to 9)
      val source3 = Source(List[Int]())
      val probe = StreamTestKit.SubscriberProbe[Int]()

      FlowGraph.closed() { implicit b ⇒
        val m1 = b.add(Merge[Int](2))
        val m2 = b.add(Merge[Int](2))

        source1 ~> m1.in(0)
        m1.out ~> Flow[Int].map(_ * 2) ~> m2.in(0)
        m2.out ~> Flow[Int].map(_ / 2).map(_ + 1) ~> Sink(probe)
        source2 ~> m1.in(1)
        source3 ~> m2.in(1)

      }.run()

      val subscription = probe.expectSubscription()

      var collected = Set.empty[Int]
      for (_ ← 1 to 10) {
        subscription.request(1)
        collected += probe.expectNext()
      }

      collected should be(Set(1, 2, 3, 4, 5, 6, 7, 8, 9, 10))
      probe.expectComplete()
    }

    "work with n-way merge" in {
      val source1 = Source(List(1))
      val source2 = Source(List(2))
      val source3 = Source(List(3))
      val source4 = Source(List(4))
      val source5 = Source(List(5))
      val source6 = Source(List[Int]())

      val probe = StreamTestKit.SubscriberProbe[Int]()

      FlowGraph.closed() { implicit b ⇒
        val merge = b.add(Merge[Int](6))

        source1 ~> merge.in(0)
        source2 ~> merge.in(1)
        source3 ~> merge.in(2)
        source4 ~> merge.in(3)
        source5 ~> merge.in(4)
        source6 ~> merge.in(5)
        merge.out ~> Sink(probe)

      }.run()

      val subscription = probe.expectSubscription()

      var collected = Set.empty[Int]
      for (_ ← 1 to 5) {
        subscription.request(1)
        collected += probe.expectNext()
      }

      collected should be(Set(1, 2, 3, 4, 5))
      probe.expectComplete()
    }

    commonTests()

    "work with one immediately completed and one nonempty publisher" in {
      val subscriber1 = setup(completedPublisher, nonemptyPublisher(1 to 4))
      val subscription1 = subscriber1.expectSubscription()
      subscription1.request(4)
      subscriber1.expectNext(1)
      subscriber1.expectNext(2)
      subscriber1.expectNext(3)
      subscriber1.expectNext(4)
      subscriber1.expectComplete()

      val subscriber2 = setup(nonemptyPublisher(1 to 4), completedPublisher)
      val subscription2 = subscriber2.expectSubscription()
      subscription2.request(4)
      subscriber2.expectNext(1)
      subscriber2.expectNext(2)
      subscriber2.expectNext(3)
      subscriber2.expectNext(4)
      subscriber2.expectComplete()
    }

    "work with one delayed completed and one nonempty publisher" in {
      val subscriber1 = setup(soonToCompletePublisher, nonemptyPublisher(1 to 4))
      val subscription1 = subscriber1.expectSubscription()
      subscription1.request(4)
      subscriber1.expectNext(1)
      subscriber1.expectNext(2)
      subscriber1.expectNext(3)
      subscriber1.expectNext(4)
      subscriber1.expectComplete()

      val subscriber2 = setup(nonemptyPublisher(1 to 4), soonToCompletePublisher)
      val subscription2 = subscriber2.expectSubscription()
      subscription2.request(4)
      subscriber2.expectNext(1)
      subscriber2.expectNext(2)
      subscriber2.expectNext(3)
      subscriber2.expectNext(4)
      subscriber2.expectComplete()
    }

    "work with one immediately failed and one nonempty publisher" in {
      // This is nondeterministic, multiple scenarios can happen
      pending
    }

    "work with one delayed failed and one nonempty publisher" in {
      // This is nondeterministic, multiple scenarios can happen
      pending
    }

  }

}
+str #15762: Implement merge and broadcast 2014-09-09 15:22:49 +02:00			`/**`
			`* Copyright (C) 2009-2014 Typesafe Inc. <http://www.typesafe.com>`
			`*/`
!str #16039 Remove old scaladsl, rename scaladsl2 * and impl2, testkit2 * keeping io2 for now 2014-10-27 14:35:41 +01:00			`package akka.stream.scaladsl`
+str #15762: Implement merge and broadcast 2014-09-09 15:22:49 +02:00
!str #16902: Unify stream internal representation also =str #16912: Fix StreamTcpSpec flakiness 2015-01-28 14:19:50 +01:00			`import akka.stream.{ ActorFlowMaterializer, ActorFlowMaterializerSettings, Inlet, Outlet }`

+str #15762: Implement merge and broadcast 2014-09-09 15:22:49 +02:00			`import scala.concurrent.duration._`
!str #16039 Remove old scaladsl, rename scaladsl2 * and impl2, testkit2 * keeping io2 for now 2014-10-27 14:35:41 +01:00
!str #16902: Unify stream internal representation also =str #16912: Fix StreamTcpSpec flakiness 2015-01-28 14:19:50 +01:00			`import akka.stream.testkit.{ TwoStreamsSetup, AkkaSpec, StreamTestKit }`
+str #15762: Implement merge and broadcast 2014-09-09 15:22:49 +02:00
			`class GraphMergeSpec extends TwoStreamsSetup {`
!str #16902: Unify stream internal representation also =str #16912: Fix StreamTcpSpec flakiness 2015-01-28 14:19:50 +01:00			`import FlowGraph.Implicits._`
+str #15762: Implement merge and broadcast 2014-09-09 15:22:49 +02:00
			`override type Outputs = Int`
!str #16902: Unify stream internal representation also =str #16912: Fix StreamTcpSpec flakiness 2015-01-28 14:19:50 +01:00
!str #16168: Expose materialized value in the graph as a "source" 2015-03-30 14:22:12 +02:00			`override def fixture(b: FlowGraph.Builder[_]): Fixture = new Fixture(b) {`
!str #16902: Unify stream internal representation also =str #16912: Fix StreamTcpSpec flakiness 2015-01-28 14:19:50 +01:00			`val merge = b add Merge[Outputs](2)`

			`override def left: Inlet[Outputs] = merge.in(0)`
			`override def right: Inlet[Outputs] = merge.in(1)`
			`override def out: Outlet[Outputs] = merge.out`

			`}`
+str #15762: Implement merge and broadcast 2014-09-09 15:22:49 +02:00
			`"merge" must {`

			`"work in the happy case" in {`
			`// Different input sizes (4 and 6)`
=str - Various Flow and FlowMaterializer improvements - Switches from using size-of-1/2 Vectors to using Lists - Fixes an issue where processorForNode wouldn't use the dispatcher form the settings - Adds a dedicated Collect fusion op - Adds various simplifications to ActorBasedFlowMaterializer - Adds FIXMEs where appropriate - Switches `grouped` to use a VectorBuilder - Adds support for `scan` - ActorBasedFlowMaterializer now uses Iterator instead of head+tail decomp on Seqs - Identity and Completed Transformers are now cached - Adds dedicated AstNodes for all combinators - Adds a hook-in point for fusion in `ActorBasedFlowMaterializer` - Adds support for `Operate` an AstNode with a function that create a fusing.Op - Adds experimental and slow optimizer as a PoC - Adds verification that Ast.Fused does not exist in optimizer input 2014-11-09 21:09:50 +01:00			`val source1 = Source(0 to 3)`
			`val source2 = Source(4 to 9)`
			`val source3 = Source(List[Int]())`
+str #15762: Implement merge and broadcast 2014-09-09 15:22:49 +02:00			`val probe = StreamTestKit.SubscriberProbe[Int]()`

!str #16902: Unify stream internal representation also =str #16912: Fix StreamTcpSpec flakiness 2015-01-28 14:19:50 +01:00			`FlowGraph.closed() { implicit b ⇒`
			`val m1 = b.add(Merge[Int](2))`
			`val m2 = b.add(Merge[Int](2))`
+str #15762: Implement merge and broadcast 2014-09-09 15:22:49 +02:00
!str #16902: Unify stream internal representation also =str #16912: Fix StreamTcpSpec flakiness 2015-01-28 14:19:50 +01:00			`source1 ~> m1.in(0)`
			`m1.out ~> Flow[Int].map(_ * 2) ~> m2.in(0)`
			`m2.out ~> Flow[Int].map(_ / 2).map(_ + 1) ~> Sink(probe)`
			`source2 ~> m1.in(1)`
			`source3 ~> m2.in(1)`
+str #15762: Implement merge and broadcast 2014-09-09 15:22:49 +02:00
			`}.run()`

			`val subscription = probe.expectSubscription()`

			`var collected = Set.empty[Int]`
			`for (_ ← 1 to 10) {`
			`subscription.request(1)`
			`collected += probe.expectNext()`
			`}`

			`collected should be(Set(1, 2, 3, 4, 5, 6, 7, 8, 9, 10))`
			`probe.expectComplete()`
			`}`

			`"work with n-way merge" in {`
!str #16102 Fold Tap/Drain into Source/Sink * Fold Tap/Drain into Source/Sink * Create Source/Sink helpers to create all Sources/Sinks * Make concrete Source/Sink implementations private[scaladsl2] 2014-10-17 14:05:50 +02:00			`val source1 = Source(List(1))`
			`val source2 = Source(List(2))`
			`val source3 = Source(List(3))`
			`val source4 = Source(List(4))`
			`val source5 = Source(List(5))`
=str - Various Flow and FlowMaterializer improvements - Switches from using size-of-1/2 Vectors to using Lists - Fixes an issue where processorForNode wouldn't use the dispatcher form the settings - Adds a dedicated Collect fusion op - Adds various simplifications to ActorBasedFlowMaterializer - Adds FIXMEs where appropriate - Switches `grouped` to use a VectorBuilder - Adds support for `scan` - ActorBasedFlowMaterializer now uses Iterator instead of head+tail decomp on Seqs - Identity and Completed Transformers are now cached - Adds dedicated AstNodes for all combinators - Adds a hook-in point for fusion in `ActorBasedFlowMaterializer` - Adds support for `Operate` an AstNode with a function that create a fusing.Op - Adds experimental and slow optimizer as a PoC - Adds verification that Ast.Fused does not exist in optimizer input 2014-11-09 21:09:50 +01:00			`val source6 = Source(List[Int]())`
+str #15762: Implement merge and broadcast 2014-09-09 15:22:49 +02:00
			`val probe = StreamTestKit.SubscriberProbe[Int]()`

!str #16902: Unify stream internal representation also =str #16912: Fix StreamTcpSpec flakiness 2015-01-28 14:19:50 +01:00			`FlowGraph.closed() { implicit b ⇒`
			`val merge = b.add(Merge[Int](6))`
+str #15762: Implement merge and broadcast 2014-09-09 15:22:49 +02:00
!str #16902: Unify stream internal representation also =str #16912: Fix StreamTcpSpec flakiness 2015-01-28 14:19:50 +01:00			`source1 ~> merge.in(0)`
			`source2 ~> merge.in(1)`
			`source3 ~> merge.in(2)`
			`source4 ~> merge.in(3)`
			`source5 ~> merge.in(4)`
			`source6 ~> merge.in(5)`
			`merge.out ~> Sink(probe)`
+str #15762: Implement merge and broadcast 2014-09-09 15:22:49 +02:00
			`}.run()`

			`val subscription = probe.expectSubscription()`

			`var collected = Set.empty[Int]`
			`for (_ ← 1 to 5) {`
			`subscription.request(1)`
			`collected += probe.expectNext()`
			`}`

			`collected should be(Set(1, 2, 3, 4, 5))`
			`probe.expectComplete()`
			`}`

			`commonTests()`

			`"work with one immediately completed and one nonempty publisher" in {`
=str - Various Flow and FlowMaterializer improvements - Switches from using size-of-1/2 Vectors to using Lists - Fixes an issue where processorForNode wouldn't use the dispatcher form the settings - Adds a dedicated Collect fusion op - Adds various simplifications to ActorBasedFlowMaterializer - Adds FIXMEs where appropriate - Switches `grouped` to use a VectorBuilder - Adds support for `scan` - ActorBasedFlowMaterializer now uses Iterator instead of head+tail decomp on Seqs - Identity and Completed Transformers are now cached - Adds dedicated AstNodes for all combinators - Adds a hook-in point for fusion in `ActorBasedFlowMaterializer` - Adds support for `Operate` an AstNode with a function that create a fusing.Op - Adds experimental and slow optimizer as a PoC - Adds verification that Ast.Fused does not exist in optimizer input 2014-11-09 21:09:50 +01:00			`val subscriber1 = setup(completedPublisher, nonemptyPublisher(1 to 4))`
+str #15762: Implement merge and broadcast 2014-09-09 15:22:49 +02:00			`val subscription1 = subscriber1.expectSubscription()`
			`subscription1.request(4)`
			`subscriber1.expectNext(1)`
			`subscriber1.expectNext(2)`
			`subscriber1.expectNext(3)`
			`subscriber1.expectNext(4)`
			`subscriber1.expectComplete()`

=str - Various Flow and FlowMaterializer improvements - Switches from using size-of-1/2 Vectors to using Lists - Fixes an issue where processorForNode wouldn't use the dispatcher form the settings - Adds a dedicated Collect fusion op - Adds various simplifications to ActorBasedFlowMaterializer - Adds FIXMEs where appropriate - Switches `grouped` to use a VectorBuilder - Adds support for `scan` - ActorBasedFlowMaterializer now uses Iterator instead of head+tail decomp on Seqs - Identity and Completed Transformers are now cached - Adds dedicated AstNodes for all combinators - Adds a hook-in point for fusion in `ActorBasedFlowMaterializer` - Adds support for `Operate` an AstNode with a function that create a fusing.Op - Adds experimental and slow optimizer as a PoC - Adds verification that Ast.Fused does not exist in optimizer input 2014-11-09 21:09:50 +01:00			`val subscriber2 = setup(nonemptyPublisher(1 to 4), completedPublisher)`
+str #15762: Implement merge and broadcast 2014-09-09 15:22:49 +02:00			`val subscription2 = subscriber2.expectSubscription()`
			`subscription2.request(4)`
			`subscriber2.expectNext(1)`
			`subscriber2.expectNext(2)`
			`subscriber2.expectNext(3)`
			`subscriber2.expectNext(4)`
			`subscriber2.expectComplete()`
			`}`

			`"work with one delayed completed and one nonempty publisher" in {`
=str - Various Flow and FlowMaterializer improvements - Switches from using size-of-1/2 Vectors to using Lists - Fixes an issue where processorForNode wouldn't use the dispatcher form the settings - Adds a dedicated Collect fusion op - Adds various simplifications to ActorBasedFlowMaterializer - Adds FIXMEs where appropriate - Switches `grouped` to use a VectorBuilder - Adds support for `scan` - ActorBasedFlowMaterializer now uses Iterator instead of head+tail decomp on Seqs - Identity and Completed Transformers are now cached - Adds dedicated AstNodes for all combinators - Adds a hook-in point for fusion in `ActorBasedFlowMaterializer` - Adds support for `Operate` an AstNode with a function that create a fusing.Op - Adds experimental and slow optimizer as a PoC - Adds verification that Ast.Fused does not exist in optimizer input 2014-11-09 21:09:50 +01:00			`val subscriber1 = setup(soonToCompletePublisher, nonemptyPublisher(1 to 4))`
+str #15762: Implement merge and broadcast 2014-09-09 15:22:49 +02:00			`val subscription1 = subscriber1.expectSubscription()`
			`subscription1.request(4)`
			`subscriber1.expectNext(1)`
			`subscriber1.expectNext(2)`
			`subscriber1.expectNext(3)`
			`subscriber1.expectNext(4)`
			`subscriber1.expectComplete()`

=str - Various Flow and FlowMaterializer improvements - Switches from using size-of-1/2 Vectors to using Lists - Fixes an issue where processorForNode wouldn't use the dispatcher form the settings - Adds a dedicated Collect fusion op - Adds various simplifications to ActorBasedFlowMaterializer - Adds FIXMEs where appropriate - Switches `grouped` to use a VectorBuilder - Adds support for `scan` - ActorBasedFlowMaterializer now uses Iterator instead of head+tail decomp on Seqs - Identity and Completed Transformers are now cached - Adds dedicated AstNodes for all combinators - Adds a hook-in point for fusion in `ActorBasedFlowMaterializer` - Adds support for `Operate` an AstNode with a function that create a fusing.Op - Adds experimental and slow optimizer as a PoC - Adds verification that Ast.Fused does not exist in optimizer input 2014-11-09 21:09:50 +01:00			`val subscriber2 = setup(nonemptyPublisher(1 to 4), soonToCompletePublisher)`
+str #15762: Implement merge and broadcast 2014-09-09 15:22:49 +02:00			`val subscription2 = subscriber2.expectSubscription()`
			`subscription2.request(4)`
			`subscriber2.expectNext(1)`
			`subscriber2.expectNext(2)`
			`subscriber2.expectNext(3)`
			`subscriber2.expectNext(4)`
			`subscriber2.expectComplete()`
			`}`

			`"work with one immediately failed and one nonempty publisher" in {`
			`// This is nondeterministic, multiple scenarios can happen`
			`pending`
			`}`

			`"work with one delayed failed and one nonempty publisher" in {`
			`// This is nondeterministic, multiple scenarios can happen`
			`pending`
			`}`

			`}`

			`}`